Title :
Magnetic properties of sputtered Bi3Fe5O12
Author :
Thavendrarajah, A. ; Pardavi-Horvath, M. ; Wigen, P.E. ; Gomi, M.
Author_Institution :
Dept. of Phys., Ohio State Univ., Columbus, OH, USA
fDate :
9/1/1989 12:00:00 AM
Abstract :
A series of Bi-substituted yttrium-iron-garnet films were grown including its end members, YIG and BiIG, by an RF-diode sputtering method. The low-temperature magnetization of highly Bi-substituted garnet is much lower than expected from the linear expansion of the lattice. The temperature dependence of the magnetization of these materials is described by a molecular field model in which some of the moment on the tetrahedral site Fe3+ ion is assumed to be transferred to the Bi3+ ion on the dodecahedral site. The proposed model contains three sublattices: Fe3+ ion at the octahedral site, Fe3+ with reduced spin at the tetrahedral site, and partially spin polarized Bi3+ ions at the dodecahedral sites. Reasonable agreement between the model and data is obtained for BiIG if it is assumed that the spin on the tetrahedral iron sublattice is reduced by 0.5 μB and the Bi ion has a moment of 0.2 μB which is strongly coupled to the iron sublattice. The large values of the uniaxial anisotropy energy, the crystalline anisotropy energy, and the linewidths measured by ferromagnetic resonance are complementary to this result
Keywords :
bismuth compounds; crystal field interactions; ferromagnetic resonance; garnets; magnetic anisotropy; magnetic thin films; magnetisation; sputtered coatings; yttrium compounds; (YBi)3Fe5O12 sputtered films; Bi3Fe5O12; crystalline anisotropy energy; dodecahedral site; ferromagnetic resonance; linewidths; low-temperature magnetisation; molecular field model; octahedral site; sublattices; tetrahedral site; uniaxial anisotropy energy; Anisotropic magnetoresistance; Bismuth; Garnets; Iron; Magnetic films; Magnetic materials; Magnetic properties; Magnetization; Sputtering; Yttrium;
Journal_Title :
Magnetics, IEEE Transactions on
